无线传感器网络

  • 网络Wireless Sensor Network;WSN;wsns;zigbee
无线传感器网络无线传感器网络
  1. 仓储系统由两大系统组成:射频识别系统以及无线传感器网络系统。

    The system consists of two systems : RFID system and WSN system .

  2. 因此,数据收集是无线传感器网络最基本的应用,是各种复杂应用的基础。

    Thus , data gathering is the basic application of WSN , and it is the foundation of other complex applications .

  3. 无线传感器网络中RobustPosition定位算法的改进

    Improvement of Robust Position location algorithm in wireless sensor network

  4. 无线传感器网络中提供QOS保障的关键问题

    The Key Issues To Support QOS In Wireless Sensor Network

  5. 基于P2P的小型无线传感器网络的研究

    Research of Small-Scale Wireless Sensor Networks Based on Peer-to-Peer

  6. 基于时分复用的无线传感器网络MAC协议研究

    Study on MAC protocols for wireless sensor networks based on TDMA

  7. 描述了无线传感器网络地址重构IP核的数学求解模型。

    The mathematic model of the reconfigurable silicon intellectual property core for address adjustment in wireless sensor networks is described .

  8. UWB无线传感器网络的无线节点定位模型研究

    Study on Node Positioning Model of UWB Wireless Sensor Networks

  9. 仿真结果表明,所完成的地址重构IP核可以满足无线传感器网络节点地址的灵活预置调整。

    The simulation result shows that address reconfigurable IP core is fit to ( address ) adjustment in wireless sensor networks .

  10. 无线传感器网络(WSN)在智能交通系统中的应用

    Application of Wireless Sensor Network ( WSN ) in Intellectual Communication System

  11. 无线传感器网络(wirelessSensorNetworks,WSN)是信息化、智能化和网络化的结合,已经成为信息领域的一个重要研究方向。

    WSN ( Wireless Sensor Networks ) has become the integrate of information , intelligence and networking , and an important research direction .

  12. 将移动Agent分布计算应用到WSN无线传感器网络通信中,是当今研究的热点技术。

    Apply the mobile agent distributed computing to communication of the wireless sensor networks WSN , is a kernel research now .

  13. 同时,对于无线传感器网络(WSN)的研究也受到广泛的关注。

    Meanwhile , the research about wireless sensor network ( WSN ) attracts extensive attention .

  14. 该系统结构由无线传感器网络和嵌入式WEB服务器两部分组成,具有实时数据采集、无线网络通信、WEB浏览器人机交互、实时数据查询等功能。

    The system consists of wireless sensor networks and embedded web server , with functions of real-time data acquisition , wireless communication , web browser interface and real-time data query .

  15. 无线传感器网络(WirelessSensorNetwork)是一种自组织网络系统,在军事、医疗和公共安全等重要领域已被公认为具有广阔的应用前景。

    Wireless sensor networks ( WSNs ) are self-organizing network systems , which have a broad application prospects in the military , medical , the public safety and so on .

  16. 验证了无线传感器网络定位系统中,CHAN算法定位的优势。

    Verify the advantages of CHAN algorithm positioning in wireless sensor network positioning system .

  17. 第三部分根据项目的实际需求,设计了一种基于树型结构网络的能量高效的无线传感器网络路由协议TREES。

    In the third part , basing on the actual requirements of the project , a tree based energy efficient routing protocol TREES is designed .

  18. 无线传感器网络(WirelessSensorNetwork,WSN)是一项受到学术界和工业界高度重视的新技术,应用前景十分广阔。

    Wireless sensor network ( WSN ) is a new technology which is thought highly of in academic circle and industrial circle and has a bright future of application .

  19. 无线传感器网络(wirelessSensorNetworks,WSN)是一种综合了多种电子信息科学技术的新型无线网络,具有十分广阔的应用前景。

    Wireless sensor networks ( WSN ), with a wide application future , is a new wireless network which compose multiple science and technology of the electronics information .

  20. 无线传感器网络(WSN)由检测网络内大量微型传感器节点组成,它在实现运动目标的跟踪定位方面具有不可比拟的优势。

    Wireless sensor network ( WSN ) is composed with a large number of micro-sensors in the monitored area .

  21. 用汇聚节点和几个普通节点组建网络,再与基于C语言开发的上位机监控界面组成了一个无线传感器网络温度监控系统。

    Use this sink node and several ordinary nodes to build a WSN network , then form a WSN temperature monitoring system with the upper computer monitoring interface developed by C # language .

  22. 无线传感器网络(WirelessSensorNetwork,WSN)近年来在军事、医疗、环境监测等领域中得到了广泛的应用,并吸引了日益增多的研究者。

    Wireless sensor network ( WSN ) has been widely used in areas such as military field , environmental monitoring and medical industry , meanwhile it has attracted an increasing number of researchers .

  23. 无线传感器网络常利川GPS来实现定位,但受其节点成本、体积和能最的限制,给无线传感器网络的定位带来了极大的挑战。

    Wireless sensor networks often use GPS positioning . but by its node cost . size and energy constraints . posed a great challenge to the positioning of wireless sensor networks .

  24. 该模型将无线传感器网络抽象为由具有特定信念、期望、意图和能力等认知成分的Agent组成的认知系统,所有这些认知成分构成多Agent系统认知模型。

    The proposed model abstracts WSN as a cognitive system composed of agents with specific cognitive ingredients , such as belief , desire , intention and ability , which together constitute the multi-agent system cognitive model .

  25. 多数无线传感器网络路由协议仅仅考虑可达性问题和节能问题,一些协议虽然提供了一定的QoS保证但还很不成熟。

    Most routing protocols in WSN only consider the reachability and energy efficiency , though some protocols have provided some QoS metric , they are far away from perfect .

  26. 作为现代信息采集的重要技术,无线传感器网络(WSN)从诞生以来,一直是研究和应用的热点。

    As an important technology of modern information collection , Wireless Sensor Network ( WSN ) has been hot spots of research and application from its birth .

  27. 无线传感器网络(WSN)已经引起了新的研究热潮,随着研究的深入能量问题越来越引起了人们的重视。

    Wireless sensor network ( WSN ) has brought a new hot research topic . The energy problem gets more and more attentions with the deep research .

  28. 而如今无线传感器网络(wirelessSensorNetworks,WSNs)的出现或将引领信息技术的再一次飞跃,从而进一步拉近人类与物理世界的距离。

    Today , the emergence of wireless sensor networks ( WSNs ) may lead information technology to leap once again thus taking a step forward to narrow the distance of the human and physical world .

  29. 通过GPRS终端将无线传感器网络获取的数据传输到远程的上位机上,从而实现监测现场数据的远程获取。

    The wireless sensor network node which deployed in farmland transfers data to remote PC through GPRS terminal , we can access data of monitoring field in the distance .

  30. 本论文提出了民用场合下一定区域内多地点、多房间的时钟同步问题,设计出一套基于GPS技术和无线传感器网络的时钟无线同步系统。

    Issue of multi-location or room of clock synchronization in the civil situation was proposed in the project . A set of clock wireless Synchronization System was designed based on GPS technology and Wireless Sensor Networks .